[1] Trimble J J, Aseltine C L. Flash Xray cineradiography at 100 000 FPS［R］. ARBRLTR02491, 1983.

[2] Olson R T, Oro D M, Anderson B G, et al. Radiographic results from the NTLX series of hydrodynamic experiments［C］//28th IEEE International Pulsed Power Conference. 2001:372375.

[3] Buyko A M, Garanin S F, Karmishin D V, et al. Analysis of the liner stability in various experiments［J］. IEEE Trans on Plasma Science, 2008, 36(1):49.

[4] Mattsson A. New developments in flash radiography［C］//27th International Congress on Highspeed Photography and Photonics. 2007:901910.

[5] Hiroshi T, Yasuhiro A, Masumi H, et al. Insitu measurement of ejecta using flash Xray［C］//60th International Astronautical Congress. 2009:21352142.

[6] Idrissi M M. Experimental study and development of a single focus burst Xray flash［C］//14th IEEE International Pulsed Power Conference. 2003:752755.

[7] Collins C B, Davanloo F. Lowimpedance compact modulators capable of generating intense ultra fast rising nanosecond waveforms［R］. AFRLSRARTR070080, 2006.

[8] 钟文丽,白书欣,陈忠道,等.高功率微波源用阴极材料的研究现状［J］.材料导报, 2008, 22(11):3842.(Zhong Wenli, Bai Shuxin, Chen Zhongdao, et al. Research status of cathode materials used in high power microwave. Materials Review, 2008, 22(11):3842)

[9] Fujioka S, Nishimura H, Takabe H, et al. Laserproduced plasmas as unique Xray souces for industry and astrophysics［C］//6th International Conference on Inertial Fusion Sciences and Applications. 2010:189193.

[10] 崔春娟,张军,刘林,等.场致发射阴极材料的研究进展［J］.材料导报, 2009, 23(6):3639.(Cui Chunjuan, Zhang Jun, Liu Lin, et al. Research progress in field emission cathode materials. Materials Review, 2009, 23(6):3639)

[11] 宋法伦,金晓,张永辉,等.爆炸发射阴极特性的研究进展［J］.物理, 2007, 36(3):241246.(Song Falun, Jin Xiao, Zhang Yonghui, et al. An overview of the properties of explosive emission cathodes. Physics, 2007, 36(3):241246)

[12] Krasik Y E, Gleizer J Z, Yarmolich D, et al. Plasma emission sources for highcurrent electron beam generation［J］. IEEE Trans on Plasma Science, 2008, 36(3):768777.

[13] Mesyats G A. Pulsed power［M］. New York: Kluwer Academic/Plenum Publishers, 2005:2932.

[14] 米夏兹.真空放电物理和高功率脉冲技术［M］.北京：国防工业出版社, 2007:512.(Mesyats. Vacuum discharge and high pulsed power. Beijing: National Defense Industry Press, 2007:512)

[15] Barker R J, Schamiloglu E.高功率微波源与技术［M］. 北京：清华大学出版社， 2005：285289.(Barker R J, Schamiloglu E. Highpower microwave sources and technologies. Beijing: Tsinghua University Press, 2005：285289)

[16] Mesyats G A. Physics of electron emission from metaldielectric cathodes［J］. IEEE Trans on Dielectrics and Electrical Insulation, 1995, 2(2):272276.

[17] Schaefer G. Gas discharge closing switch［M］. New York: Plenum Press, 1990:266267.

[18] Zalucki A, Kulzner F. Initiation of electrical breakdown by ionic bombardment in a vaccum gap after arc extinction［J］. IEEE Trans on Plasma Science, 1985, 7(5):109113.

[19] Parker R K, Anderson R E, Duncan C V. Plasmainduced field emission and the characteristics of highcurrent relativistic electron flow［J］. Journal of Applied Physics, 1974, 45(6):24632479.

[20] Pushkarev A I, Sazonov R V. Studying the effect of adsorbed molecules on the operation of a diode with an explosiveemission cathode［J］. Instruments and Experimental Techniques, 2008, 51(6):875885.

[21] 夏连胜,王勐,黄子平,等.强流电子二极管中阴极等离子体的膨胀［J］.物理学报, 2004, 53(10):34353439.(Xia Liansheng, Wang Meng, Huang Ziping, et al. Explosion of cathode plasma in intense multibeams electron vacuum diode. Acta Physica Sinica, 2004, 53(10):34353439)

[22] 夏连胜,王文斗,牟凡,等.多脉冲强流真空电子二极管研究［J］.高能物理与核物理, 2007, 31(6):593596.(Xia Liansheng, Wang Wendou, Mou Fan, et al. Research on multipulsed high intense electron vacuum diode. High Energy Physics and Nuclear Physics, 2007, 31(6):593596)

[23] Xia Liansheng, Yang Anmin, Chen Yi, et al. Multipulsed intense electron beam emission from velvet,carbon fibers,carbon nanotubes and dispenser cathodes［J］. Chinese Physics C, 2010, 34(11):17331737.

[24] Krasik Y E， Gleizer J Z, Yarmolich D, et al. Plasma emission sources for highcurrent electron beam generation［J］. IEEE Trans on Plasma Science, 2008, 36(3):768777.

[25] Friedman M, Myers M, Hegeler F, et al. Emission of an intense large area electron beam from a slab of porous dielectric［J］. Journal of Applied Physics, 2004, 96(12):77147722.

[26] Bruce M R, Habiger K W B, Jr William R, et al. Advances in SuperReltron source development［C］//Proc of SPIE, 1995, 2557:28.

[27] Bruce M R. SuperReltrons and pulsed power issues［C］//Proceedings of the Colloquium on Pulsed Power. 1997:243248.

[28] Smith I D, David N, Frank C. Dielectric cathodes:a review and some recent improvements［C］//IEEE Pulsed Power Plasma Science Conference. 2007:7378.

[29] Smith I. The early history of western pulsed power［J］. IEEE Trans on Plasma Science, 2006, 34(5):15851609.

[30] 钟文丽.高功率微波源用阴极材料研究［D］.长沙：国防科学技术大学， 2008:5768.(Zhong Wenli. The study of cathode materials used in the field of high power microwave. Changsha: National University of Defense Technology, 2008:5768)

[31] Garate E, Mcwilliams R D, Voss D E, et al. Novel cathode for fieldemission applications［J］. Review of Scientific Instruments, 1995, 66(3):25282532.

[32] Benford J, Price D, DeHope W. Lowered plasma velocity with cesium iodide/carbon fiber cathodes at high electric fields［C］//Proc of IEEE International Conference on Plasma Science. 1998:187190.

[33] Pilossof M, Einat M. Lifetime extension of ferroelectric cathodes for microwave tubes［J］. Nuclear Instruments and Methods in Physics Research A, 2011, 636(1):812.

[34] Wang Qiuping, Tang Shuai, Huang Xudong. Electron emission from ferroelectric cathode［C］//2nd International Conference on Manufacturing Science and Engineering. 2011:18361839.

[35] Gleizer J Z, Chirko K, Yarmolich D, et al. Electron beam generation in a diode having a ferroelectric plasma cathode controlled by optic fibers［J］. The European Physical JournalApplied Physics, 2006, 34(1):3541.

[36] Ravi M, Bhat K S, Krupanidhi S B. Studies on effect of dielectric coating on the triple junction electric field in ferroelectric cathodes［C］//8th International Vacuum Electron Sources Conference. 2010:2526.

[37] 祁康成.六硼化镧场发射特性研究［D］.成都：电子科技大学, 2008:4348.(Qi Kangcheng. Research on field emission characteristics of lanthanum hexaboride. Chengdu: University of Electronic Science and Technology of China, 2008:4348)

[38] Smith I. Tests of a dielectric surface flashover switch［C］//IEEE Power Modulator Symposium. 1982:190194.